[HTML][HTML] The landscape of DNA methylation associated with the transcriptomic network in layers and broilers generates insight into embryonic muscle development in …
Z Liu, S Han, X Shen, Y Wang, C Cui, H He… - … journal of biological …, 2019 - ncbi.nlm.nih.gov
Scope: As DNA methylation is one of the key epigenetic mechanisms involved in embryonic
muscle development, elucidating its relationship with non-coding RNAs and genes is …
muscle development, elucidating its relationship with non-coding RNAs and genes is …
[PDF][PDF] The landscape of DNA methylation associated with the transcriptomic network in layers and broilers generates insight into embryonic muscle development in …
Z Liu, S Han, X Shen, Y Wang, C Cui… - International …, 2019 - pdfs.semanticscholar.org
Scope: As DNA methylation is one of the key epigenetic mechanisms involved in embryonic
muscle development, elucidating its relationship with non-coding RNAs and genes is …
muscle development, elucidating its relationship with non-coding RNAs and genes is …
The landscape of DNA methylation associated with the transcriptomic network in layers and broilers generates insight into embryonic muscle development in chicken.
Z Liu, S Han, X Shen, Y Wang, C Cui, H He, Y Chen… - 2019 - cabidigitallibrary.org
Scope: As DNA methylation is one of the key epigenetic mechanisms involved in embryonic
muscle development, elucidating its relationship with non-coding RNAs and genes is …
muscle development, elucidating its relationship with non-coding RNAs and genes is …
[HTML][HTML] The landscape of DNA methylation associated with the transcriptomic network in layers and broilers generates insight into embryonic muscle development in …
Z Liu, S Han, X Shen, Y Wang, C Cui, H He… - International Journal of …, 2019 - ijbs.com
Methods: In this study, we performed single-base-resolution bisulfite sequencing together
with RNA-seq of broilers and layers in different embryonic development points (E10, E13 …
with RNA-seq of broilers and layers in different embryonic development points (E10, E13 …
The landscape of DNA methylation associated with the transcriptomic network in layers and broilers generates insight into embryonic muscle development in chicken.
Z Liu, S Han, X Shen, Y Wang, C Cui, H He… - … Journal of Biological …, 2019 - europepmc.org
Scope: As DNA methylation is one of the key epigenetic mechanisms involved in embryonic
muscle development, elucidating its relationship with non-coding RNAs and genes is …
muscle development, elucidating its relationship with non-coding RNAs and genes is …
The landscape of DNA methylation associated with the transcriptomic network in layers and broilers generates insight into embryonic muscle development in chicken
Z Liu, S Han, X Shen, Y Wang, C Cui… - International …, 2019 - pubmed.ncbi.nlm.nih.gov
Scope: As DNA methylation is one of the key epigenetic mechanisms involved in embryonic
muscle development, elucidating its relationship with non-coding RNAs and genes is …
muscle development, elucidating its relationship with non-coding RNAs and genes is …
[引用][C] The landscape of DNA methylation associated with the transcriptomic network in layers and broilers generates insight into embryonic muscle development in …
Y Liu, J Xing, Y Li, Q Luo, Z Su, X Zhang… - International Journal of …, 2019 - hero.epa.gov
The landscape of DNA methylation associated with the transcriptomic network in layers and
broilers generates insight into embryonic muscle development in chicken | Health & …
broilers generates insight into embryonic muscle development in chicken | Health & …
The landscape of DNA methylation associated with the transcriptomic network in layers and broilers generates insight into embryonic muscle development in chicken.
Z Liu, S Han, X Shen, Y Wang, C Cui, H He… - … Journal of Biological …, 2019 - europepmc.org
Scope: As DNA methylation is one of the key epigenetic mechanisms involved in embryonic
muscle development, elucidating its relationship with non-coding RNAs and genes is …
muscle development, elucidating its relationship with non-coding RNAs and genes is …